//===-- lldb-private-types.h ------------------------------------*- C++ -*-===//
//
//                     The LLVM Compiler Infrastructure
//
// This file is distributed under the University of Illinois Open Source
// License. See LICENSE.TXT for details.
//
//===----------------------------------------------------------------------===//

#ifndef liblldb_lldb_private_types_h_
#define liblldb_lldb_private_types_h_

#if defined(__cplusplus)

#include "lldb/lldb-private.h"

namespace llvm
{
namespace sys
{
class DynamicLibrary;
}
}

namespace lldb_private
{
    class Platform;
    class ExecutionContext;

    typedef llvm::sys::DynamicLibrary (*LoadPluginCallbackType)(const lldb::DebuggerSP &debugger_sp,
                                                                const FileSpec &spec, Error &error);

    //----------------------------------------------------------------------
    // Every register is described in detail including its name, alternate
    // name (optional), encoding, size in bytes and the default display
    // format.
    //----------------------------------------------------------------------
    struct RegisterInfo
    {
        const char *name;        // Name of this register, can't be NULL
        const char *alt_name;    // Alternate name of this register, can be NULL
        uint32_t byte_size;      // Size in bytes of the register
        uint32_t byte_offset;    // The byte offset in the register context data where this register's value is found.
                                 // This is optional, and can be 0 if a particular RegisterContext does not need to
                                 // address its registers by byte offset.
        lldb::Encoding encoding; // Encoding of the register bits
        lldb::Format format;     // Default display format
        uint32_t kinds[lldb::kNumRegisterKinds]; // Holds all of the various register numbers for all register kinds
        uint32_t *value_regs;      // List of registers (terminated with LLDB_INVALID_REGNUM).  If this value is not
                                   // null, all registers in this list will be read first, at which point the value 
                                   // for this register will be valid.  For example, the value list for ah
                                   // would be eax (x86) or rax (x64).
        uint32_t *invalidate_regs; // List of registers (terminated with LLDB_INVALID_REGNUM).  If this value is not
                                   // null, all registers in this list will be invalidated when the value of this
                                   // register changes.  For example, the invalidate list for eax would be rax
                                   // ax, ah, and al.
    };

    //----------------------------------------------------------------------
    // Registers are grouped into register sets
    //----------------------------------------------------------------------
    struct RegisterSet
    {
        const char *name;           // Name of this register set
        const char *short_name;     // A short name for this register set
        size_t num_registers;       // The number of registers in REGISTERS array below
        const uint32_t *registers;  // An array of register indices in this set.  The values in this array are
                                    // *indices* (not register numbers) into a particular RegisterContext's
                                    // register array.  For example, if eax is defined at index 4 for a
                                    // particular RegisterContext, eax would be included in this RegisterSet
                                    // by adding the value 4.  Not by adding the value lldb_eax_i386.
    };

    struct OptionEnumValueElement
    {
        int64_t value;
        const char *string_value;
        const char *usage;
    };

    struct OptionValidator
    {
        virtual ~OptionValidator() { }
        virtual bool IsValid(Platform &platform, const ExecutionContext &target) const = 0;
        virtual const char * ShortConditionString() const = 0;
        virtual const char * LongConditionString() const = 0;
    };

    struct OptionDefinition
    {
        uint32_t usage_mask;                     // Used to mark options that can be used together.  If (1 << n & usage_mask) != 0
                                                 // then this option belongs to option set n.
        bool required;                           // This option is required (in the current usage level)
        const char *long_option;                 // Full name for this option.
        int short_option;                        // Single character for this option.
        int option_has_arg;                      // no_argument, required_argument or optional_argument
        OptionValidator* validator;              // If non-NULL, option is valid iff |validator->IsValid()|, otherwise always valid.
        OptionEnumValueElement *enum_values;     // If non-NULL an array of enum values.
        uint32_t completion_type;                // Cookie the option class can use to do define the argument completion.
        lldb::CommandArgumentType argument_type; // Type of argument this option takes
        const char *usage_text;                  // Full text explaining what this options does and what (if any) argument to
                                                 // pass it.
    };

    typedef struct type128 { uint64_t x[2]; } type128;
    typedef struct type256 { uint64_t x[4]; } type256;

} // namespace lldb_private

#endif  // #if defined(__cplusplus)

#endif  // liblldb_lldb_private_types_h_
